Bachelor of Science in Electrical Engineering
Student enrollment and admission
Automation and electronics
Study plan and program
Electric power
Study plan and program
Computing and informatics
Study plan and program from 2014/2015
Study plan and program until 2014/2015
Telecommunications
Study plan and program
Data Science and Artificial Intelligence (DSAI)
Title of the title obtained upon completion of studies: Master - BSc in Electrical Engineering, Department of Electrical Power Engineering
Main field of study: Power Engineering
Study cycle: Second cycle of studies (Master)
Minimum number of acquired ECTS: 120
Official duration of the study program: Four semesters / Two years
Enrollment requirements: Completed the first cycle of studies lasting at least 180 ECTS, entrance exam in selected fields of power engineering and mathematics
Mode of study: Full-time
Official working language: Bosnian / Croatian / Serbian
Educational goals:
Master of Electrical Engineering - Bachelor of Electrical Engineering, Department of Electrical Power Engineering:
has extensive knowledge in the field of analysis of complex problems in the field of power systems has a broad education in the development and use of automated metering and control systems in the field of electricity has the skills to formulate, analyze and use numerical methods to solve complex problems in power engineering that are described through partial differential equations possesses appropriate skills for the introduction of fundamental concepts of high voltage engineering and analysis in the field of specific physical phenomena at high voltages possesses knowledge, skills and competencies for the systematic presentation of transient and permanent disturbances that lead to the deterioration of electricity quality has knowledge of new technological aspects in the field of production, transmission, use and storage of electricity possesses knowledge, skills and competencies in the field of testing and maintenance of electrical installations has appropriate knowledge and skills on the characteristics of investment in the electricity sector and on privatization and deregulation in the electricity sector.
Learning outcomes:
Upon completion of the second cycle of studies, the student has the following knowledge, skills and competencies:
knowledge and understanding of control of systems with DC and AC electric machines in static and dynamic states and their application in different types of electric motor drives and mechatronic systems in industry, robotics, servo drives of electric vehicles knowledge and understanding of the principles of operation, construction, control methods and use of special types of electric machines in different types of electric motor drives and mehtronic systems describing and modeling the most complex engineering problems ability to analyze and model complex power systems, integration of three-phase power models and short-circuit models, modeling and analysis of electromagnetic transients in the frequency and time domains knowledge and understanding of different types of overvoltage stresses and the behavior of insulation systems under the action of these stresses knowledge of the method of selection of measuring equipment and defining test circuits for high voltage tests ability to use modern simulation software for analysis of electromagnetic transients in the time domain knowledge of the application of modern sensors used in automated measurement and control systems as well as the application of intelligent measurement and control systems ability to formulate complex engineering problems in a way that allows their numerical solution ability for all analyzes of certain states or modes of operation of complex power systems and the development of appropriate design solutions using modern software tools ability in management and operation of modern power systems ability to analyze safety and manage emergency regimes of electric power systems, ie participation in the current restructuring of the electric power sector knowledge of use and competence in designing unconventional sources of electricity (fuel cells, hydrogen, sun, etc.) competence in the preparation of project documentation for power plants using CAD packages and protection and automation of power plants ability - competence in designing low voltage distribution and low voltage installations in industrial and commercial facilities ability to design a system of distributed electricity generation knowledge and understanding of the model of financing the construction of power system facilities, analyzing the costs of production, transmission and distribution of electricity competence in analyzing and making proposals in decision-making in solving problems related to all aspects of the impact of the electricity system on the environment.
Study plan and program:
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